Chapter 4

Chapter 4 Comparative Advantage and Factor Endowments

Lecture Objectives • Analyze the comparative advantage based on endowment differences • Heckscher-Ohlin model • Discuss the results of empirical tests of comparative advantage based on endowment differences. • Present economic models on the impact of trade on income distribution • HO Model: Stolper-Samuelson theorem • Specific factors model

Introduction • Recall that comparative advantage refers to the difference in autarky relative prices between countries. • Anything that produces different relative prices is a potential source of comparative advantage. • The Ricardian (“Classical”) model emphasized differences in technology; • Differences in endowments of factors of production is the focus of the Heckscher-Ohlin model;

Introduction (continued) • Differences in tastes; • Between countries, • Within countries, • Preference for variety • Non-constant returns technology; and • Institutional Differences • Market institutions • Political Institutions

Introduction (3) • Modeling Strategy: focus on one element by holding the others constant • The Ricardian model focuses on technology • The Heckscher-Ohlin model focuses on endowment differences. • We’ll see other approaches later

From Classical to Heckscher-Ohlin Trade Theory • Problems with the Ricardian Model • Strong Specialization/Discontinuous Adjustment • Indeterminacy of Final Terms of Trade • No Income Distribution Effects • Problems with the Labor Theory of Value • Demand is an important determinant of value • Other factors of production are important (at least proximately) in the production of value.

From Classical to Heckscher-Ohlin Trade Theory, 2 • Increasing Opportunity Cost • A “bowed out” (concave) production frontier • This will yield a continuous price-output relationship. • Neoclassical Value Theory • With increasing opportunity cost, we will need demand to determine autarky equilibrium price • Demand also resolves the ToT indeterminacy

Introduction toHeckscher-Ohlin Trade Theory • Eli Heckscher (1879-1952) and Bertil Ohlin (1899-1879) developed an analysis of trade based on endowment differences, assuming: • Unlike the Ricardian model, countries have access to the same technologies; and • Countries share the same tastes; but • Countries differ in their endowments of productive factors.

The Hecksher-Ohlin-Samuelson (HOS) Model • Paul Samuelson, who pioneered the formalization of trade theory, developed a simple formal analysis of the HO theory, which is commonly called the HOS model: • 2 final goods: Bread and Steel; • 2 factors of production: Capital and Labor; and • 2 countries: US and Canada.

Production in the HOS Model, 1 • Production functions: • Require the use of both factors • yj = f j(Kj,Lj) for j = S and B. • Are constant returns to scale; but • Diminishing returns to either factor when holding the use of the other fixed. • One good, say steel, is always capital-intensive relative to the other (“no factor-intensity reversal”)

Production in the HOS Model, 2 • Under these assumptions, we can show that the production frontier is strictly concave. • That is, there are increasing opportunity costs in transfromation

Demand in the HOS Model, 1 • With a concave PPF, we will need demand to characterize an equilibrium. • We will assume that aggregate preferences exist and are such that: • Both goods are good; • Both goods are normal; • Goods can be smoothly substituted; and • Diminishing marginal rate of substitution.

Demand in the HOS Model, 2 • We can represent these preferences with an aggregate utility function whose indifference curves are: • Increasing along any ray from the origin; • Negatively sloped; • Bowed in to the origin; • Positively sloped income-expansion path; and • Non-intersecting.

Demand in the HOS Model, 3 1) Increasing along any ray from the origin: Bread μ2 > μ1 μ2 μ1 Steel

Demand in the HOS Model, 4 1) Increasing along any ray from the origin Bread 2) Negatively sloped 3) Smoothly bowed in to the origin Steel

Demand in the HOS Model, 5 • Increasing along any ray from the origin • Negatively sloped • Smoothly bowed in to the origin • Positively sloped expansion path Bread Steel

Demand in the HOS Model, 6 • Increasing along any ray from the origin • Negatively sloped • Smoothly bowed in to the origin • Positively sloped expansion path • Non-Intersecting Bread . z . x . y Steel

Autarky Equilibriumin the HOS Model, 1 • In a closed economy, equilibrium requires • Prices are such that Supply = Demand in all markets; and • All agents are optimizing: • Firms are choosing outputs to maximize profits; and • Households are choosing consumption to maximize utility.

Autarky Equilibriumin the HOS Model, • Optimizing Behavior Implies: • This is easily shown graphically

Autarky Equilibriumin the HOS Model, 3

Illustrating Trade in the HOS Model • As with the Ricardian model, it is easiest to consider the effect of trade on the small HOS economy: • The autarkic HOS economy will now observe given world trade prices. • We assume, for the illustration that:

Illustrating Trade in the HOS Model, 1: Autarky again

Illustrating Trade in the HOS Model, 2: Trade Prices

Illustrating Trade in the HOS Model, 3: Production Adjusts

Illustrating Trade in the HOS Model, 4: Consumption Adjusts

Illustrating Trade in the HOS Model, 5: The Trade Triangle

On the Equilibrium with Trade • Note that the equilibrium with trade is an equilibrium • Consumers are optimizing: p* = MRS • Producers are optimizing: p* = MRT • Supply = Demand in all markets • Balanced Trade: value imports (M) = value exports (X) • Gains from trade: the economy achieves a higher aggregate welfare (as represented by the higher indifference curve or larger consumption set)

Comparative Advantage:The Heckscher-Ohlin Theorem • Comparative advantage in the HOS model derives from the interaction between factor-intensity (the relationship between industries) and factor abundance (a comparison between countries). • A country is called capital-abundant relative to another country if its endowment of capital, relative to labor, is greater than that of the other country.

The Heckscher-Ohlin Theorem • The Heckscher-Ohlin Theorem: Under the assumptions of the HOS model, a country will have a comparative advantage in the good whose production uses its abundant factor intensively. • The Law of Comparative Advantage: a country will export the good in which it has a comparative advantage.

Applying the Heckscher-Ohlin Theorem • Suppose we assume that the US is capital intensive relative to Canada: • The Heckscher-Ohlin theorem predicts that the US will have a comparative advantage in steel production relative to Canada.

Empirical Research on the Heckscher-Ohlin Theorem, 1 • The H-O Theorem has the virtue, shared with the Ricardian model, that, under the assumptions of the theory, knowledge of autarky prices is not necessary to predict trade patterns: • Knowledge of endowments predicts to comparative advantage. • Not surprisingly, this has led to a large body of research on the predictions of the HO theorem.

Empirical Research on the Heckscher-Ohlin Theorem, 2 • Many different empirical frameworks • Leontief-type tests: calculate implicit factor trade from input-output data; • Multi-Good, Multi-Factor, Multi-Country tests: Sign and rank-order tests. • Regression-based tests: predict export/import status from factors used in production. • Single country, cross-commodity • Multi country, aggregate trade flow • Multi country, multi commodity

Empirical Research on the Heckscher-Ohlin Theorem, 3 • Results are generally weak to poor • Share of trade explained by endowments small • Volume of trade under-predicted (“mystery of the missing trade”) • AICs seem to be scarce in most factors and LDCs abundant in all factors • Large share of world trade between countries with similar endowments (OECD countries) • Large share of trade is intra-industry trade

Empirical Research on the Heckscher-Ohlin Theorem, 4 • What would we expect? We are ignoring: • Taste difference (Home bias in particular) • Technology differences • Transaction costs (transportation, protection, etc.) • Economies of scale • Institutional differences • The results improve strongly when we include some of these factors.

Trade and Income Distribution, 1 • The Ricardian model was unable to address income distribution issues within countries because there was a single, homogeneous factor of production. • Because the HO theory is based on factor heterogeneity it does allow us to analyze income distribution.

Trade and Income Distribution, 2 • Wolfgang Stolper and Paul Samuelson showed that, under the assumptions of the HOS model, there is a relationship between changes in commodity prices and changes in the real return to factors of production. • While households may own mixes of factors of production, this result clearly gives us a starting point for analyzing the distributional effects of trade.

Trade and Income Distribution, 3.1 • Much of the recent interest in the link between trade and income distribution derives from the suspicious link between • Increased openness in most countries over the last 25 years;

Evolution of Trade Openness

Evolution of the Trade Balance

Trade and Income Distribution, 3.2 • Much of the recent interest in the link between trade and income distribution derives from the suspicious link between • Increased openness in most countries over the last 25 years; and • Sharply increased skill premium (the return to skilled labor relative to that of unskilled labor).

Evolution of the Skill Premium

Trade and Income Distribution, 3.3 • Much of the recent interest in the link between trade and income distribution derives from the suspicious link between • Increased openness in most countries over the last 25 years; and • Sharply increased skill premium (the return to skilled labor relative to that of unskilled labor). • Stolper-Samuelson theorem seems like a natural place to start an evaluation of this link.

Stolper-Samuelson Theorem: Setup, 1 • Derived from the HOS model • Assumptions: • 2 goods, 2 factors of production • Constant returns to scale • Perfect competition in all markets means • Zero economic profits: pj = waLj + raKj, j = B, S; • Full employment: Zi = aiByB + aiSyS, i = K, L ; and • All factors earn the values of their marginal products

Stolper-Samuelson Theorem: Setup, 2 • As in our lecture on the HO theorem, suppose that, when trade is opened, our reference country sees a higher relative price of steel:

Stolper-Samuelson Theorem: Setup, 3 Bread (L-intensive) World price: p* > p Production adjusts to reflect comparative advantage Steel (K-intensive)

Stolper-Samuelson Theorem: Intuition • Responding to the new relative price, leads to an increase in the output of the K-intensive good. • At initial relative factor-prices, this creates • Excess demand for K; and • Excess supply of L. • This puts upward pressure on r and downward pressure on w.

Stolper-Samuelson Theorem: Picturing the Intuition • The story we just told refers to adjustments in factor markets as a result of changes in world relative prices. • To get a bit of intuition on this, let’s look explicitly at demands for factors. • To do this we will make use of the isoquant diagram, a representation of production conditions.

The Two-Input, Neoclassical Production Function: yj = f j(K,L) • Constant returns to scale; • Expansion path is a straight line; • Slope of expansion path gives kj = Kj /Lj. • Slope of an isoquant gives the marginal rate of technical substitution between K and L;

The Isocost Line All combinations of K and L, given w and r, worth a fixed amount—say $pj: K So the slope gives the equilibrium w/r ratio. L

The Isoquant Diagram K yB = f B(KB,LB) L

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